Is this Friction Problem Really That Simple? A Scientific Analysis

In summary, the problem seems too simple, but I have worked it out without using any of the dimensions given. My work is also correct for the given value of mu.
  • #1
jmf322
18
0
Ok this problem seems way too simple. I have worked it out without using any of the dimensions given.

The problem is http://www.engr.colostate.edu/~elblunto/problem.jpg"

My work is http://www.engr.colostate.edu/~elblunto/jonwork.jpg"

I don't think the solution could be that easy. Anyone want to try and see if this is more complicated than I made it? Thanks
 
Last edited by a moderator:
Physics news on Phys.org
  • #2
What if the friction coefficient at the end of the tongs goes to zero? Youre solution doesn't take that into account. As the mu at the tong tips gets lower, you will be limited in how much weight you can pull, or the tongs will slip off.
 
  • #3
Thanks for noticing Berkeman. I am going to attempt to sum the moments about C to solve for the normal force applied at the tips of the tongs. feel free to stop me if this is incorrect! thanks
 
  • #4
P.s. That is hibbeler and the problem in the book is wrong. I found that out the hard way myself. There is no solution.
 
Last edited:
  • #5
Cyrus,

It is Hibbeler, and the answer in the back of the book is incorrect. I am very confident there is a correct solution however.
 
  • #6
cyrusabdollahi said:
P.s. That is hibbeler and the problem in the book is wrong. I found that out the hard way myself. There is no solution.
Really? It sure seems like there should be a solution -- the situation seems pretty physical. There probably is no solution if you have to build up the pulling force from zero, because zero initial normal force at the squeeze point would mean that the jaws would always slip off. But if the jaws could be held on the wood as the pulling force was built up to some number, and then they are released, it seems like you could solve for what force you could apply before they finally slipped off. Definitely let us know what you find. What's the wrong answer in the book, BTW?

Edit -- Hmm, maybe with the angles given and the mu, the jaws would always pull off. Maybe that's what's going on. Maybe it takes at least some minimum mechanical advantage on the squeeze point and some minimum mu for the jaws not to slip off?
 
  • #7
you got it. Solve for the friction force given the value of mu. It will be
2F> P, sorry that won't work, as it is not in equilibrium anymore. The values are bogus. ;-)
 
  • #8
the answer in the back is m = 54.9 kg

i will back back a little later to read your response a little more thoroughly. Thanks
 
  • #9
Dont pay attention to what the book has, its wrong. To get a solution you will have to solve to find what the value of mu can be. Its really quite trivial, if you have a force of P to the left, then at each tong you must have a force of 1/2 P in the other direction, which means you have a force of P acting on the box. So you need to solve for what minimum value of mu will allow you to have a value of 1/2 P at each tong, or change the angle of the chains.
 
Last edited:
  • #10
Cyrus,

So you are saying that I should disregard the given value of mu between the tongs and the pallet, and solve for the normal force, thus giving me the correct value of mu? So was my work correct for given value of mu?

I am confused because this problem was assigned by my professor. I don't understand why he would assign it if he knew it was a trick question. I am positive that he is aware of the problems inaccuracies.
 
Last edited:
  • #11
So you are saying that I should disregard the given value of mu between the tongs and the pallet, and solve for the normal force, thus giving me the correct value of mu?

Yep, and your work seems good too.

I am confused because this problem was assigned by my professor. I don't understand why he would assign it if he knew it was a trick question. I am positive that he is aware of the problems inaccuracies.

Nope, the book is wrong. Its not a trick question, its an improperly written problem in the book. Just bring it to his attention and ask for extra credit because you spotted a mistake, and then thank him that you do not use the 9th edition that had TONS of mistakes in it.
 
  • #12
lol thanks a lot for helping me out!
 

1. What is the definition of friction in the context of statics?

Friction is a force that opposes the relative motion or tendency of motion between two surfaces in contact. In the context of statics, friction is the resistance force that prevents an object from moving when a force is applied to it.

2. How is friction calculated in statics?

In statics, friction is calculated using the formula F = μN, where F is the friction force, μ is the coefficient of friction, and N is the normal force between the two surfaces in contact.

3. What factors affect the coefficient of friction?

The coefficient of friction is affected by the nature of the two surfaces in contact, the roughness of the surfaces, and the amount of force pressing the surfaces together.

4. Can friction ever be completely eliminated in statics?

No, it is not possible to completely eliminate friction in statics. Even in ideal conditions, there will always be some resistance force due to the microscopic roughness of the surfaces in contact.

5. How does friction impact the stability of structures in statics?

Friction plays a crucial role in the stability of structures in statics. It helps to prevent objects from slipping or sliding, providing stability and preventing collapse. Engineers must carefully consider the effects of friction when designing structures to ensure they are stable and safe.

Similar threads

How can we model a rolling truck on an incline using rotational motion analysis?
    • Introductory Physics Homework Help
Replies
24
Views
1K
Engineering Torque applied on a vise screw (problem includes friction)
    • Engineering and Comp Sci Homework Help
Replies
9
Views
2K
Engineering Struggling with a Structural Analysis Problem?
    • Engineering and Comp Sci Homework Help
Replies
1
Views
865
Static Analysis for SAP2000 API
    • Programming and Computer Science
Replies
3
Views
1K
Hertzian contact with friction
    • Introductory Physics Homework Help
Replies
4
Views
1K
B Rolling Motion Test: Take the Challenge and Justify Your Answers
    • Mechanics
2
Replies
37
Views
2K
Analyzing a Complex Structure for Statics Project
    • Engineering and Comp Sci Homework Help
Replies
4
Views
1K
Statistics problem: Comparing written work with & w/out use of AI
    • General Discussion
Replies
4
Views
513
Engineering How Does Adjusting Parameter B Affect Servo Motor Friction and System Damping?
    • Engineering and Comp Sci Homework Help
Replies
1
Views
1K
Engineering RL circuit Q. I must be missed something simple
    • Engineering and Comp Sci Homework Help
Replies
3
Views
1K

Hot Threads

Recent Insights

Back
Top